Entropy (Jun 2024)

Coherence-Enhanced Single-Qubit Thermometry out of Equilibrium

  • Gonçalo Frazão,
  • Marco Pezzutto,
  • Yasser Omar,
  • Emmanuel Zambrini Cruzeiro,
  • Stefano Gherardini

DOI
https://doi.org/10.3390/e26070568
Journal volume & issue
Vol. 26, no. 7
p. 568

Abstract

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The metrological limits of thermometry operated in nonequilibrium dynamical regimes are analyzed. We consider a finite-dimensional quantum system, employed as a quantum thermometer, in contact with a thermal bath inducing Markovian thermalization dynamics. The quantum thermometer is initialized in a generic quantum state, possibly including quantum coherence with respect to the Hamiltonian basis. We prove that the precision of the thermometer, quantified by the Quantum Fisher Information, is enhanced by the quantum coherence in its initial state. We analytically show this in the specific case of qubit thermometers for which the maximization of the Quantum Fisher Information occurs at a finite time during the transient thermalization dynamics. Such a finite-time precision enhancement can be better than the precision that is achieved asymptotically.

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